CN101806938B - One-dimensional membrane cavity structure-based different-bandwidth optical interleaver - Google Patents

Abstract

The invention discloses a one-dimensional membrane cavity structure-based different-bandwidth optical interleaver. The interleaver comprises an input optical fiber, a collimating lens, eleven optical dielectric layers, a focusing lens and an output optical fiber and is characterized in that: along the forward direction of a light beam, the eleven optical dielectric layers orderly comprise: a first layer and an eleventh layer of B-type dielectric layers, a second layer and a tenth layer of C-type dielectric layers, a third layer and a ninth layer of the B-type dielectric layers, a fourth layer and an eighth layer of A-type dielectric layers, a fifth layer and a seventh layer of D-type dielectric layers and a sixth layer of a C-type dielectric layer; the C dielectric layers are isotropical optical glass; the A, B and D dielectric layers are optical thin films with different refractive indexes; the optical thicknesses of the A, B and D dielectric layers are all 1/4 of a central wavelength; and the expression of the optical thickness of the C dielectric layer is C/(2*delta f). The interleaver has the characteristics of low cost, high performance and high reliability; and both a pass band and a stop band have flat filter characteristics, so the interleaver is used for performing the selection of wavelength signals, noise filter of an optical amplifier, gain equalization and the like in a wave division multiplex communication system.

Description

Different-bandwidth optical interleaver based on one-dimensional membrane cavity structure

Technical field:

What the present invention relates to is a kind of different-bandwidth optical interleaver with smooth passband and stopband characteristic, mainly is used in noise filtering, gain balance of the selection of carrying out wavelength signals in the wavelength division multiplexing communications systems, image intensifer etc.

Background technology:

Optical filter is to be used for carrying out the instrument that wavelength is selected, and it can pick out required wavelength from numerous wavelength, and except that this light wavelength will be rejected through.It can be applied to dense wave division multipurpose (DWDM) system, is used for that wavelength is selected, the noise filtering of image intensifer, gain balance, light multiplex/demultiplex etc.Present stage, the sigtnal interval was more and more little along with the continuous development of DWDM technology, and this has proposed higher spectrally resolved requirement to optical filter, needed to adopt the filtering device of narrower frequency interval to come separation signal, improved message capacity effectively.The optical interleaver that formally was suggested in the world in 2000 (optical interleaver) comes down to a kind of periodic optical filter; Have the light signal that one road frequency interval is very narrow and resolve into the function (logical, the bandwidth of rejection of its output spectra equate, are called for short equiband interleaver) of light signal that two-way comprises the channel spacing multiplication of odd and even number respectively.It is not increase existing multiplexing demultiplexing device technology burden and realize a kind of effective solution of dense wave division multipurpose more.In order effectively to select signal, realize the low pass intertrack crosstalk, interleaver must possess smooth and the passband of high-contrast and the spectrum transmitting characteristic of stopband.In recent years; Along with the continuous development of optical-fiber network and the variation of network demand; Improve bandwidth availability ratio in order better to widen the existing network capacity, reduce the cost of system upgrade and realize flexibly OADM etc., have research focus logical, that the unequal different-bandwidth type of bandwidth of rejection interleaver wave filter becomes researchers.

Formerly technological [1] (referring to Sino-Japan microwave proceeding, Yang Xiaowei etc., 2008, what 595-598) describe is a kind of different-bandwidth optical interleaver based on cascade birefringece crystal structure.Three thickness ratios of this wave filter employing are 2: 3: 2 birefringece crystal, and the position angle is respectively-63.0998 ° ,-135.3269 ° and-207.4795 °, have realized the output of the unequal planarization spectral-transmission favtor spectrum of logical, bandwidth of rejection.But because this structure is to adopt anisotropic birefringece crystal, thereby this loss of technology insertion formerly is bigger, and cost is higher.

Formerly technological [2] (referring to the optics journal, Wu Shudong etc., 2008, what 31-35) describe is the staggered multiplex filter of a kind of different-bandwidth optical.Its structure that adopts the Gires-Tournois etalon and inside and outside this etalon, place a birefringece crystal wave plate has respectively realized the transmission spectrum output of two-way different-bandwidth.But the transmission spectrum of this wave filter output especially rectangle degree of slot output spectra is relatively poor.In addition, this wave filter is owing to adopted the Gires-Tournois etalon, thereby chromatic dispersion is bigger, often need carry out dispersion compensation and handle, and also adopt anisotropic birefringece crystal wave plate in this structure, thereby this wave filter cost is not cheap yet.

Formerly technological [3] (referring to the photon journal, Han Peng etc., 2009,38 (2), what 272-275) describe is a kind of wave filter that produces a plurality of flat-top transmission peaks.It is theoretical based on 1-D photon crystal superlattice theory and coupler; Changed the coupler of traditional homogenous material into the photon crystal structure of limit cycle; Formed a kind of superlattice structure, the light field of the photonic crystal through making insertion effectively is coupled, thereby has realized multichannel smooth filter function. this formerly technology owing to adopted superlattice structure; Thereby complex structure, be difficult for realizing.

Formerly technological [4] (referring to the optics journal, old extra large magnitude, 2004,24 (1), what 62-64) describe is a kind of wave filter of realizing smooth filtering characteristic.It adopts cascade F-P chamber theoretical; Plate the Ta2O5 and the SiO2 reflectance coating in 1/4 cycle that replaces of tens layers through two surfaces at fused quartz; Obtain the film Fabry Perot cavity unit of solid wall, then 4 should be superimposed with the chamber of spline structure and constitute.This formerly technological vapor-deposited film number of plies is more, thereby yield rate is not high.

Summary of the invention:

The objective of the invention is to overcome the above-mentioned deficiency of technology formerly; A kind of different-bandwidth optical interleaver based on one-dimensional membrane cavity structure is provided; That this wave filter has is simple in structure, cost is low, the characteristics that are easy to realize, and also passband and stopband all have smooth filtering characteristic.

For achieving the above object, concrete design of the present invention is: this wave filter is by the thin film dielectrics chamber cascade of three isotropic materials, and each thin film dielectrics chamber is made up of the several layers dieletric reflection film at two surperficial vapor depositions of glass medium.

According to above-mentioned inventive concept, concrete technical solution of the present invention is following:

Different-bandwidth optical interleaver based on one-dimensional membrane cavity structure; Comprise input optical fibre 1, collimation lens 2,11 layers of optical medium layer 3, condenser lens 4 and output optical fibre 5, it is characterized in that: the direction that above-mentioned 11 layers of optical medium layer 3 advance along light beam is arranged in order as follows: 1st, 11 layers are C kind dielectric layer for A kind dielectric layer, the 5th, 7 layer for D kind dielectric layer, the 6th layer for B kind dielectric layer, the 4th, 8 layer for C kind dielectric layer, the 3rd, 9 layer for B kind dielectric layer, the 2nd, 10 layer.

Above-mentioned C kind dielectric layer is isotropic optical glass, and above-mentioned A, B, D kind dielectric layer are the optical thin film of different refractivity.

The optical thickness of above-mentioned A, B, D kind medium tunic is 1/4th of centre wavelength, and the expression formula of the optical thickness of above-mentioned C kind dielectric layer is:

$d_c=\frac{C}{2\·\mathrm{\Δf}}$

Wherein, d _cBe the optical thickness of C kind dielectric layer, C is a light speed in a vacuum, and Δ f is the spectral frequency interval of wave filter.

When the spectral frequency of above-mentioned wave filter was applied to the less dense wavelength division multiplexing system of frequency interval, the optical thickness of C kind dielectric layer was much bigger than the optical thickness of other A, B, D kind dielectric layer, so C kind dielectric layer can be regarded the optical medium chamber as.And, can realize the planarization spectral-transmission favtor spectrum of different duty through selecting each dielectric layer of different refractivity.

Technique effect of the present invention:

Different-bandwidth optical interleaver based on one-dimensional membrane cavity structure of the present invention; Study from the 1-D photon crystal theory; Propose to adopt 11 layers of optical medium layer structure, wherein 3 dielectric layers are isotropic optical glass, and all the other each dielectric layers are optical thin film; Avoid the use of formerly the birefringece crystal in the technology [1] and [2], reduced cost and insertion loss etc.; Plate the Ta2O5 in 1/4 cycle that replaces of tens layers and compare with the SiO2 reflecting film structure with two surfaces at fused quartz of technology [4] formerly with the employing superlattice structure of technology [3] formerly, the present invention is simple in structure, is easy to realize control with accurate.In addition, because the kind of optical glass and film is a lot, therefore, the range of choice of each dielectric layer in this wave filter is bigger.In sum; That different-bandwidth optical interleaver based on one-dimensional membrane cavity structure of the present invention has is simple in structure, production cost is low, performance good and the reliability advantages of higher; Can be widely used in the selection of carrying out wavelength signals in the wavelength division multiplexing communications systems, and passband and stopband all has smooth filtering characteristic.

Description of drawings

Fig. 1 is the structural representation of the different-bandwidth optical interleaver based on one-dimensional membrane cavity structure of the present invention.

Fig. 2 is dutycycle 1: 5 o'clock the planarization spectral-transmission favtor oscillogram of the present invention at the 100GHz frequency interval.

Fig. 3 (a)-(d) is respectively under the condition of approximate maintenance flat characteristic, A, and B, C, (dutycycle was defined as 1 to the corresponding N value of dutycycle: situation of change figure N) when the refractive index of D kind dielectric layer departed from ideal situation.

Fig. 4 is respectively the planarization spectral-transmission favtor oscillogram of 1: 4 and at 1: 3 o'clock in the dutycycle of 100GHz frequency interval for the present invention.

Embodiment:

Below in conjunction with Figure of description and embodiment the present invention is done further detailed explanation.

As shown in Figure 1; Different-bandwidth optical interleaver based on one-dimensional membrane cavity structure of the present invention; Comprise input optical fibre 1, collimation lens 2,11 layers of optical medium layer 3, condenser lens 4 and output optical fibre 5, it is characterized in that: the direction that above-mentioned 11 layers of optical medium layer 3 advance along light beam is arranged in order as follows: 1st, 11 layers are C kind dielectric layer for A kind dielectric layer, the 5th, 7 layer for D kind dielectric layer, the 6th layer for B kind dielectric layer, the 4th, 8 layer for C kind dielectric layer, the 3rd, 9 layer for B kind dielectric layer, the 2nd, 10 layer.Above-mentioned C kind dielectric layer is isotropic optical glass, and above-mentioned A, B, D kind dielectric layer are the optical thin film of different refractivity.

The optical thickness of above-mentioned A, B, D kind medium tunic is 1/4th of centre wavelength, and the expression formula of the optical thickness of above-mentioned C kind dielectric layer is:

$d_c=\frac{C}{2\·\mathrm{\Δf}}$

Wherein, d _cBe the optical thickness of C kind dielectric layer, C is a light speed in a vacuum, and Δ f is the spectral frequency interval of wave filter.

Embodiment 1: as shown in Figure 1; Optical interleaver of the present invention is at frequency interval 100GHz; Dutycycle is 1: 5 o'clock, and the direction that light beam advances along light beam from input optical fibre 1 is successively through 2,11 layers of optical medium layer 3 of collimation lens, condenser lens 4, from output optical fibre 5 outputs.It is plumbous that each dielectric layer materials A of this wave filter, B, C, D elect magnesium fluoride, zinc sulphide, glass and antimonyization respectively as, and refractive index is respectively 1.38,2.35,1.51 and 4.1.The optical thickness of A, B and D medium is 387.53nm, and the optical thickness of C medium is 1498.97 μ m.Transmission spectrum is as shown in Figure 2.Visible from figure, the passband of this wave filter and stopband all have smooth filtering characteristic, and each centre frequency meets the ITU-T of International Telecommunications Union (ITU) standard, are applicable to that dense wavelength division multiplexing system carries out the selection of wavelength signals.

(a)-(d) can know from Fig. 3, the corresponding also approximately linear variation of N value of dutycycle when each dielectric layer refractive index of this wave filter departs from ideal situation.N is with A, the increase of C medium refraction index and reducing, and with B, the increase of D refractive index and increasing.Comparatively speaking, during the variations in refractive index of A medium, the variation of dutycycle is the fastest, and during the variations in refractive index of D medium, the variation of dutycycle is the slowest.It is thus clear that under the constant situation of structure, the dielectric material of choose reasonable different refractivity can obtain the optical interleaver of other dutycycle.

Embodiment 2: as shown in Figure 1; Optical interleaver of the present invention is at frequency interval 100GHz; Dutycycle was respectively 1: 3 and 1: 4 o'clock, and the direction that light beam advances along light beam from input optical fibre 1 is successively through 2,11 layers of optical medium layer 3 of collimation lens, condenser lens 4, from output optical fibre 5 outputs.As each dielectric layer A of this wave filter, B, C, the D refractive index is respectively 1.45,1.99,1.56 and to obtain dutycycle at 3.23 o'clock be 1: 3 spectral-transmission favtor spectrum.As each dielectric layer A, B, C, the D refractive index is respectively 1.45,2.35,1.57 and to obtain dutycycle at 4.1 o'clock be 1: 4 spectral-transmission favtor spectrum.The optical thickness of A, B and D medium is 387.53nm, and the optical thickness of C medium is 1498.97 μ m.Transmission spectrum is as shown in Figure 4.It is thus clear that the logical stopband characteristic of this wave filter is still more smooth, and each centre frequency meets the ITU-T of International Telecommunications Union (ITU) standard, is fit to be applied to the dense wave division multipurpose communication system and is used for filtering.

Claims (1)

1. different-bandwidth optical interleaver based on one-dimensional membrane cavity structure; Comprise input optical fibre (1), collimation lens (2), 11 layers of optical medium layer (3), condenser lens (4) and output optical fibre (5), it is characterized in that: the direction that described 11 layers of optical medium layer (3) advance along light beam is arranged in order as follows: 1st, 11 layers are C kind dielectric layer for A kind dielectric layer, the 5th, 7 layer for D kind dielectric layer, the 6th layer for B kind dielectric layer, the 4th, 8 layer for C kind dielectric layer, the 3rd, 9 layer for B kind dielectric layer, the 2nd, 10 layer;

Above-mentioned C kind dielectric layer is isotropic optical glass, and above-mentioned A, B, D kind dielectric layer are the optical thin film of different refractivity;

The optical thickness of above-mentioned A, B, D kind medium tunic is 1/4th of centre wavelength, and the expression formula of the optical thickness of above-mentioned C kind dielectric layer is:

$d_c=\frac{C}{2\·\mathrm{\Δf}}$

Wherein, d _cBe the optical thickness of C kind dielectric layer, C is a light speed in a vacuum, and Δ f is the spectral frequency interval of wave filter.

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